CN107643038B - Tool for accurately measuring axis position of pipe - Google Patents

Abstract

The invention relates to a tool for accurately measuring the axis position of a pipe, which comprises a ruler, a target body, a standard block, an upper L-shaped ruler and a lower L-shaped ruler, wherein a first vertical through groove, a second vertical through groove and a transverse through groove are sequentially formed in the standard block from front to back, the vertical section of the upper L-shaped ruler is inserted into the first vertical through groove from top to bottom, the vertical section of the lower L-shaped ruler is inserted into the second vertical through groove from bottom to top, the straight ruler is inserted into the transverse through groove, the horizontal sections of the upper L-shaped ruler and the lower L-shaped ruler are respectively provided with the target body, and the standard block is also provided with a first locking structure, a second locking structure and a third locking structure which respectively control the upper L-shaped ruler, the lower L-shaped ruler and the ruler to slide on the standard block, and the horizontal section of the upper L-shaped ruler and the horizontal section of the lower L-shaped ruler are all oriented to the right. By adopting the structure, the actual coordinate position of the mounting tube axis can be accurately measured, the high accuracy and the high efficiency installation of auxiliary staff to the installation tube.

Description

Accurate measuring tube tool for axial position

Technical Field

The invention belongs to the technical field of engineering measuring tools, and particularly relates to a tool for accurately measuring the axis position of a pipe.

Background

The Chinese building industry continuously goes forward suddenly, the structures such as a large-span truss, a pipe net rack, a double-curved arch and the like are more and more, the modeling is more and more graceful and complex, and in the assembling process of the structures such as the pipe truss and the like, the accurate positioning of the pipe is a difficult point, especially the installation and positioning of the double-curved pipe.

In the traditional assembling process of the round tube or oval tube structure, the round tube or oval tube skin is assembled in a structure mode, positioning points are selected through a model, positioning points are marked on the component, and the round tube or oval tube is positioned through the positioning points. The selection of the hyperbolic pipe locating points is difficult, the actual marking points are difficult to find, the measurement accuracy is poor, and the error is large, so that the high-accuracy and high-efficiency positioning and installation of the pipe cannot be realized.

Therefore, a tool that can assist a worker in accurately determining the position of a tube axis is in need.

Disclosure of Invention

The invention provides a tool for accurately measuring the axial line position of a pipe, which is characterized in that an upper L-shaped ruler and a lower L-shaped ruler are symmetrically arranged on a standard block, a straight ruler is also arranged on the standard block, the L-shaped ruler, the lower L-shaped ruler and the straight ruler form an E-shaped structure, in addition, the L-shaped ruler, the lower L-shaped ruler and the straight ruler can all move on the standard block, a locking structure for controlling the movement of each ruler relative to the standard block is further arranged on the standard block, through the structure, a user can adjust the size of each ruler relative to the standard block in advance according to the standard size of the pipe, then the locking structure is used for locking, and then the L-shaped ruler and the lower L-shaped ruler are clamped on a mounting pipe.

The invention is realized by the following technical scheme: the utility model provides a tool of accurate survey pipe axis position, includes ruler, target, mark piece, goes up L type chi and lower L type chi, set gradually first perpendicular through groove, the perpendicular through groove of second and horizontal through groove from front to back on the mark piece, go up L type chi's vertical section from last to pegging graft down in the first perpendicular through inslot, lower L type chi's vertical section is pegged graft from lower supreme in the perpendicular through inslot of second, the ruler is pegged graft in horizontal through inslot, go up L type chi's horizontal segment with all install down L type chi's horizontal segment the target, still be provided with on the mark piece and control respectively go up L type chi, lower L type chi and ruler and the first locking structure, second locking structure and the third locking structure of sliding on the mark piece, go up L type chi's horizontal segment and lower L type chi's horizontal segment all face to the right.

Further, in order to better implement the present invention, the object is a prism.

Further, in order to better realize the invention, the device further comprises an upper connecting rod and a lower connecting rod, wherein the lower end of the upper connecting rod is connected with the upper surface of the right end part of the horizontal section of the upper L-shaped ruler, the upper end of the lower connecting rod is connected with the lower surface of the right end part of the horizontal section of the lower L-shaped ruler, the upper end of the upper connecting rod and the lower end of the lower connecting rod are both connected with one target body, and the lengths of the upper connecting rod and the lower connecting rod are the same.

Further, in order to better realize the invention, the upper connecting rod and the lower connecting rod are telescopic rods.

Further, in order to better realize the invention, the upper connecting rod comprises an upper outer layer pipe and an upper inner layer pipe, the lower end of the upper outer layer pipe is connected with the upper surface of the right end part of the horizontal section of the upper L-shaped ruler, the upper inner layer pipe is sleeved in the upper outer layer pipe in a vertically sliding manner, and the upper end of the upper inner layer pipe is provided with the target body; the lower connecting rod comprises a lower outer layer pipe and a lower inner layer pipe, wherein the upper end of the lower outer layer pipe is connected with the lower surface of the right end part of the horizontal section of the lower L-shaped ruler, the lower inner layer pipe is sleeved in the lower outer layer pipe in an up-down sliding manner, one target body is arranged at the lower end of the lower inner layer pipe, and a fourth locking structure for controlling the relative movement of the upper inner layer pipe and the upper outer layer pipe and the relative movement of the lower inner layer pipe and the lower outer layer pipe is respectively arranged on the upper outer layer pipe and the lower outer layer pipe.

Further, in order to better implement the present invention, the fourth locking structure is a seat tube clamp.

Further, in order to better realize the invention, scales are arranged on the outer walls of the upper inner layer pipe and the lower inner layer pipe, and marks matched with the scales are arranged on the seat pipe clamp.

Further, in order to better realize the invention, the standard block comprises a square block, an upper limiting block and a lower limiting block, wherein the first vertical through groove, the second vertical through groove and the transverse through groove are all formed in the square block, the upper limiting block and the lower limiting block are all connected to the right surface of the square block, the upper limiting block is arranged above the transverse through groove, and the lower limiting block is arranged below the transverse through groove.

Further, in order to better realize the invention, the first locking structure, the second locking structure and the third locking structure all comprise threaded holes and compression screws, the compression screws are in threaded connection with the threaded holes, the threaded holes of the first locking structure are formed in the groove wall of the first vertical through groove, the threaded holes of the second locking structure are formed in the groove wall of the second vertical through groove, and the threaded holes of the third locking structure are formed in the upper limiting block.

Further, in order to better realize the invention, the invention further comprises a spherical bulge and a double-peak bulge, wherein the lower surface of the right end part of the horizontal section of the upper L-shaped ruler and the upper surface of the right end part of the horizontal section of the lower L-shaped ruler are respectively provided with one spherical bulge, and the right end face of the straight ruler is provided with the double-peak bulge.

Compared with the prior art, the invention has the following beneficial effects:

(1) The invention symmetrically installs the upper L-shaped ruler and the lower L-shaped ruler on the standard block, and also installs the straight ruler on the standard block, the L-shaped ruler, the lower L-shaped ruler and the straight ruler form an E-shaped structure, in addition, the L-shaped ruler, the lower L-shaped ruler and the straight ruler can all move on the standard block, and the standard block is also provided with a locking structure for controlling the movement of each ruler relative to the standard block, through the structure, a user can adjust the size of each ruler relative to the standard block in advance according to the standard size of the mounting tube, and then the ruler is locked by the locking structure, the invention is clamped on the mounting tube, the upper L-shaped ruler and the lower L-shaped ruler are both provided with the target bodies, after the invention is clamped on the mounting tube, a user can utilize a measuring instrument, such as a total station, to measure the actual coordinate positions of the two target bodies, and then the actual coordinate positions of the two target bodies are integrated and averaged to obtain the actual coordinate position of the axis of the mounting tube, thereby realizing the accurate positioning of the mounting tube, assisting the high-precision and high-efficiency mounting of the mounting tube by staff, and having strong practicability;

(2) The upper connecting rod and the lower connecting rod are arranged in the invention, the upper connecting rod and the lower connecting rod are limited to be telescopic rods, and the upper connecting rod and the lower connecting rod are respectively used for installing the corresponding target blocks on the upper L-shaped block and the lower L-shaped block, so that the distance between the two target blocks relative to the axis of the installation tube is convenient to control, and the target blocks are more convenient to observe;

(3) The scale and the mark are arranged on the upper connecting pipe and the lower connecting pipe, and the fourth locking structure is matched with the pipe clamp, so that a user can conveniently control the extension degree of the upper connecting rod and the lower connecting rod to be the same, the distances between two targets relative to the axis of the mounting pipe are the same, and the accuracy of the measuring is further improved;

(4) According to the invention, the upper limiting block and the lower limiting block are arranged, and after the ruler passes through the transverse through groove, the ruler passes through the hole between the upper limiting block and the lower limiting block, so that the ruler can be laterally limited, the rigidity of the ruler in use is increased, the measurement precision is increased, and the ruler is prevented from being broken in the use process;

(5) The right end parts of the horizontal ends of the upper L-shaped ruler and the lower L-shaped ruler are respectively provided with a spherical bulge, so that the contact between the upper L-shaped ruler and the lower L-shaped ruler and the mounting pipe is point contact during measurement, and the right end part of the straight ruler is provided with a double-peak bulge, thereby ensuring the perpendicularity between the measuring device and the mounting pipe, and further enhancing the measuring accuracy of the measuring device.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the structure of a tool for precisely measuring the axial position of a pipe in the present invention;

FIG. 2 is a schematic diagram of the front view of the block according to the present invention;

FIG. 3 is a schematic top view of a block according to the present invention;

FIG. 4 is a schematic top view of the straightedge in the present invention;

FIG. 5 is a schematic view of the mounting structure of the target on the upper L-rule of the present invention;

fig. 6 is a schematic view of the mounting structure of the target body on the lower L-shaped ruler in the present invention.

In the figure 1-a ruler; 2-target; 3-labeling; 31-square; 311-a first vertical through slot; 312-a second vertical through slot; 313-transverse through slots; 32-upper limiting blocks; 33-a lower limiting block; 4-an upper L-shaped ruler; 5-lower L-shaped blocks; 6-a first locking structure; 7-a second locking structure; 8-a third locking structure; 9-upper connecting rods; 91-an upper outer layer tube; 92-upper inner tube; 10-lower connecting rod; 101-a lower outer layer tube; 102-a lower inner layer tube; 11-fourth locking structure; 12-spherical protrusions; 13-bimodal protrusions; 14-pointer marking; 15-rotating the mounting frame; 16-scale; 17-labelling.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

The concepts of front, rear, left, right, up, down and the like described in this embodiment are based on the concepts of front, rear, left, right, up, down and the like shown in fig. 1, and specifically, the concepts of front, rear, left, right, up, down and the like shown in fig. 1 are defined as upper, lower, left end shown in fig. 1 is left, right end shown in fig. 1 is right, one end extending into the paper surface in fig. 1 is front, one end extending away from the paper surface in fig. 1 is rear, left and right directions in fig. 1 are lateral, and upper and lower directions in fig. 1 are vertical.

Example 1:

in this embodiment, a tool for accurately measuring the axis position of a pipe includes a ruler 1, a target 2, a standard block 3, an upper L-shaped ruler 4 and a lower L-shaped ruler 5, where the standard block 3 is sequentially provided with a first vertical through slot 311, a second vertical through slot 312 and a transverse through slot 313 from front to back. As shown in fig. 1, the upper L-shaped ruler 4 is defined to include a vertical section and a horizontal section perpendicular to each other, the lower L-shaped ruler 5 is defined to also include a vertical section and a horizontal section perpendicular to each other, and the horizontal sections defining the upper L-shaped ruler 4 and the lower L-shaped ruler 5 are each directed to the right, that is, the vertical sections of the upper L-shaped ruler 4 and the lower L-shaped ruler 5 are connected at the left ends of the horizontal sections thereof.

The free ends of the vertical sections of the upper L-shaped ruler 4 are inserted into the first vertical through groove 311 from top to bottom, the free ends of the vertical sections of the lower L-shaped ruler 5 are inserted into the second vertical through groove 312 from bottom to top, preferably, the specifications defining the upper L-shaped ruler 4 and the lower L-shaped ruler 5 are the same, and the shapes and the sizes of the first vertical through groove 311 and the second vertical through groove 312 are matched with the shapes and the sizes of the upper L-shaped ruler 4 and the lower L-shaped ruler 5, so that the upper L-shaped ruler 4 can be just inserted into the first vertical through groove 311 without shaking and can freely move up and down, and the lower L-shaped ruler 5 can just be inserted into the second vertical through groove 312 without shaking and can freely move up and down. The ruler 1 is inserted into the transverse through groove 313, and the shape and the size of the transverse through groove 313 are limited to be matched with those of the ruler 1, so that the ruler 1 can be just inserted into the transverse through groove 313 without shaking and can freely move left and right.

The zero graduation defining the straight ruler 1 is arranged at the left side, the zero graduation defining the upper L-shaped ruler 4 is arranged at the lower side of the vertical section, and the zero graduation of the lower L-shaped ruler 5 is arranged at the upper side of the vertical section. In this embodiment, as shown in fig. 2, four pointer marks 14 are further provided on the tag 3, for respectively assisting the user to read the readings of the upper L-shaped ruler 4, the lower L-shaped ruler 5 and the ruler 1.

In this embodiment, the tag 3 is further provided with a first locking structure 6, a second locking structure 7, and a third locking structure 8, which are respectively used to control the movements of the upper L-shaped ruler 4, the lower L-shaped ruler 5, and the ruler 1 relative to the tag 3.

Through the structure, when a user uses the ruler, according to the standard size of the mounting tube, the upper L-shaped ruler 4, the lower L-shaped ruler 5 and the ruler 1 can be adjusted to the corresponding reading positions, the ruler is approximately in an E-shaped structure, then the first locking structure 6, the second locking structure 7 and the third locking structure 8 are locked, the positions of the upper L-shaped ruler 4, the lower L-shaped ruler 5 and the ruler 1 on the standard block 3 are determined, and then the ruler is clamped on the outer wall of the mounting tube, so that the lower end of the vertical section of the upper L-shaped ruler 4, the upper end of the vertical section of the lower L-shaped ruler 5 and the right end of the ruler 1 are closely attached to the outer side wall of the mounting tube.

Taking an installation tube as an example for a circular tube for concrete explanation, a user adjusts the upper L-shaped ruler 4, the lower L-shaped ruler 5 and the straight ruler 1 to be the numerical value of the outer diameter of the circular tube, and then clamps the invention on the circular tube, so that the lower end of the vertical section of the upper L-shaped ruler 4, the lower end of the vertical section of the lower L-shaped ruler 5 and the right end of the straight ruler 1 are tightly attached to the outer wall of the circular tube, and the connecting line between the tangent point of the upper L-shaped ruler 4 and the outer wall of the circular tube and the tangent point of the lower L-shaped ruler 4 and the outer wall of the circular tube is the diameter of the circular tube due to the positioning effect of the straight ruler 1.

In this embodiment, for convenient observation, the target body 2 is installed on the horizontal segment of the upper L-shaped ruler 4 and the horizontal segment of the lower L-shaped ruler 5, a user can utilize a measuring instrument, such as a total station, to measure the actual coordinate positions of the two target bodies 2, then average the actual coordinate position values of the two target bodies 2, and the obtained coordinate position is the actual coordinate position where the circular tube axis is located, so that accurate positioning of the installation tube is realized, high precision and efficient installation of the installation tube are assisted by staff, the construction efficiency is greatly increased, the construction progress is accelerated, and the practicability is strong.

When the mounting pipe is an elliptic pipe or a hyperbolic pipe, the coordinate of the position of the mounting pipe axis at the measuring position can be measured by the invention, so that the application range is wide.

As a best mode of this embodiment, the object 2 is configured as a prism, so that it is further convenient for a user to observe with the total station. In addition, the prism in this embodiment is the same as the prism installation mode in the prior art, and is rotatably installed on the upper L-shaped ruler 4 and the lower L-shaped ruler 5 through a rotation installation frame 15, so that the 3 can rotate 360 degrees around the horizontal and vertical directions, and a user can conveniently adjust the angle of the prism according to the needs. Since the rotary mounting frame 15 for mounting the prism is the prior art in this embodiment, detailed description thereof will not be provided here. When the prism is used, a user can adjust the angle of the prism according to the needs, then the coordinate of the positions of the two prisms is measured by using the total station, and then the accurate coordinate of the axis of the installation tube can be obtained by taking the average value.

The specifications of the straight scale 1, the upper L-shaped scale 4 and the lower L-shaped scale 5 in the embodiment can be specifically selected according to the needs, the precision thereof can be set to be 1mm so as to meet the requirement of realizing high-precision measurement, and the straight scale 1, the upper L-shaped scale 4 and the lower L-shaped scale 5 are all made of rigid materials so that the straight scale 1, the upper L-shaped scale 4 and the lower L-shaped scale 5 have enough strength, hardness and rigidity to cope with complex environments of construction sites, the measurement precision is ensured, and the service life of the straight scale is prolonged.

Example 2:

in this embodiment, as shown in fig. 1, an upper connecting rod 9 vertically facing upwards is disposed on the upper surface of the right end of the horizontal section of the upper L-shaped ruler 4, a prism (i.e. the target 2) is mounted on the upper end of the upper connecting rod 9 through a rotating mounting frame 15, a lower connecting rod 10 vertically facing downwards is disposed on the lower surface of the right end of the horizontal section of the lower L-shaped ruler 5, and another prism (i.e. the target 2) is mounted on the lower end of the lower connecting rod 10 through another rotating mounting frame 15, so that the lengths of the upper connecting rod 9 and the lower connecting rod 10 are defined to be the same, and thus the distances between the centers of the two prisms with respect to the center position of the invention are ensured to be the same, so that the measured value is the same as the actual coordinates of the mounting axis, and the measurement accuracy of the invention is enhanced.

Example 3:

the present embodiment is further defined on the basis of embodiment 2, in this embodiment, the upper connecting rod 9 and the lower connecting rod 10 are both telescopic rods, so that a user can conveniently adjust the distance between the two target bodies 2 and the center position of the present invention according to the needs, and the practicability of the present invention is enhanced.

As a specific implementation manner of this embodiment, in this embodiment, as shown in fig. 5 and 6, the upper connecting rod 9 is defined to include an upper outer layer pipe 91 and an upper inner layer pipe 92 which are mutually adapted, the upper inner layer pipe 92 is sleeved in the upper outer layer pipe 91 and the upper inner layer pipe 92 can freely slide up and down in the upper outer layer pipe 91, the lower end of the upper outer layer pipe 91 is mounted on the upper surface of the right end portion of the horizontal section of the upper L-shaped ruler 4, and a prism is mounted on the upper end of the upper inner layer pipe 92 by rotating the mounting frame 15; the lower connecting rod 10 is defined to include a lower outer pipe 101 and a lower inner pipe 102 which are fitted to each other, the lower inner pipe 102 is fitted in the lower outer pipe 101 and is freely slidable up and down, an upper end of the lower outer pipe 101 is connected to an upper surface of a right end portion of a horizontal section of the lower L-shaped ruler 5, and another prism is installed at a lower end of the lower inner pipe 102 through another rotary installation frame 15. The user can control the degree of expansion and contraction of the upper inner tube 92 with respect to the upper outer tube 91 and the degree of expansion and contraction of the lower inner tube 102 with respect to the lower outer tube 101, thereby achieving the purpose of controlling the distance between the two prisms with respect to the center of the present invention.

In order to facilitate the user to control the expansion and contraction degree of the upper inner layer tube 92 relative to the upper outer layer tube 91 and the expansion and contraction degree of the lower inner layer tube 102 relative to the lower outer layer tube 101, in this embodiment, a fourth locking structure 11 is respectively disposed on the upper outer layer tube 91 and the lower outer layer tube 101, so that the user can control the tightness of the fourth locking structure 11, thereby facilitating the control of the expansion and contraction degree. Preferably, the fourth locking structure 11 is a seat tube clamp, which is a structure for controlling the height of a bicycle seat on a bicycle, and is known in the art, so detailed description thereof will not be provided herein.

Since the lengths of the upper connecting rod 9 and the lower connecting rod 10 are required to be the same, that is, the expansion degree of the upper inner layer tube 92 relative to the upper outer layer tube 91 and the expansion degree of the lower inner layer tube 102 relative to the lower outer layer tube 101 are required to be the same, in order to quantify the expansion degree, in this embodiment, as shown in fig. 5 and fig. 6, scales 16 are arranged on the outer walls of the upper inner layer tube 92 and the lower inner layer tube 102, marks 17 are arranged on the end surfaces of the two seat tube clamps, and a user can use the marks 17 to identify the numerical value of the scales 16, thereby facilitating the accurate control of the expansion degree by the user and further enhancing the practicability and the measurement accuracy of the invention.

Example 4:

the present embodiment is further defined on the basis of the above embodiment, in this embodiment, as shown in fig. 2 and 3, the mark block 3 is defined to include a square 31, an upper stopper 32 and a lower stopper 33, the first vertical through slot 311, the second vertical through slot 312 and the horizontal through slot 313 are all disposed on the square 31, the upper stopper 32 and the lower stopper 33 are all connected to the right surface of the square 31, and the upper stopper 32 is defined to be disposed above the horizontal through slot 313, the lower stopper 33 is disposed below the horizontal through slot 313, such that a passageway is formed between the upper stopper 32 and the lower stopper 33, the upper stopper 32 and the lower stopper 33 are mounted at a proper size position such that the ruler 1 passes through the passageway after passing through the horizontal through slot 313, and the upper surface of the ruler 1 is attached to the lower surface of the upper stopper 32, and the lower surface of the ruler 1 is attached to the upper surface of the lower stopper 33. With the adoption of the structure, the ruler 1 is laterally limited by the upper limiting block 32 and the lower limiting block 33, so that the rigidity of the ruler in the use process is enhanced, the measurement precision is increased, meanwhile, the ruler is prevented from being broken in the use process, and the practicability of the ruler is further enhanced.

Example 5:

in order to facilitate the adjustment of the ruler 1, the upper L-shaped ruler 4 and the lower L-shaped ruler 5 by a user, this embodiment is further defined on the basis of the above embodiment, in this embodiment, as shown in fig. 2 and fig. 3, the first locking structure 6, the second locking structure 7 and the third locking structure 8 are defined to include threaded holes and compression screws, and when in use, the compression screws are screwed into the corresponding threaded holes, the threaded holes defining the first locking structure 6 are formed on the walls of the first vertical through groove 311, the threaded holes defining the second locking structure 7 are formed on the walls of the second vertical through groove 312, and the threaded holes defining the third locking structure 8 are formed on the upper limiting block 32. The user only needs to control whether each compression screw is screwed or not, so that the movement of the straight ruler 1, the upper L-shaped ruler 4 and the lower L-shaped ruler 5 on the standard block 3 can be controlled, and the operation is simple and convenient.

Example 6:

in this embodiment, as shown in fig. 1, 4, 5 and 6, in this embodiment, a spherical protrusion 12 is respectively disposed on the lower surface of the right end of the horizontal section of the upper L-shaped ruler 4 and the upper surface of the right end of the horizontal section of the lower L-shaped ruler 5, so that when the present invention is used, two spherical protrusions 12 are in contact with the mounting tube, which is a point contact, thereby further improving the accuracy of the measurement of the present invention. The right end part of the ruler 1 is provided with a double-peak bulge 13, when the double-peak bulge is contacted with an installation hall, the contact area can be enlarged, so that the perpendicularity of the ruler 1 and an installation pipe is ensured, and the accuracy of measurement of the invention is further improved.

Example 7:

the embodiment is taken as a specific application method embodiment of the invention, and comprises the following application steps:

step 1: the straight ruler 1, the upper L-shaped ruler 4 and the lower L-shaped ruler 5 with proper measuring ranges are selected according to the standard size of the section of the mounting pipe, scales of the ruler are adjusted according to the standard size of the section of the mounting pipe, and the mounting pipe is locked through a compression screw;

step 2: selecting a proper position to erect measuring instruments such as total stations and the like;

step 3: according to the positioning requirements, arranging proper positioning positions, and leaning two spherical bulges 12 and one double-peak bulge 13 on the invention on the surface of the mounting tube, and clamping the invention on the mounting tube;

step 4: selecting a proper prism angle, and measuring the actual position coordinates of the two prisms by using a total station;

step 5: and integrating and averaging the obtained live-action position coordinates of the two prisms, or importing the live-action position coordinates into CAD to obtain a central point of a connecting line of the two points, thereby determining the actual coordinate position of the passing point of the mounting pipe axis.

The foregoing is only a specific embodiment of the present invention, the scope of the invention is not limited in this respect, any person skilled in the art can easily think of changes or substitutions within the technical scope of the present disclosure, and the present disclosure is intended to be covered by the present disclosure. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A tool for accurately measuring the axial position of a pipe, which is characterized in that: the automatic straight-through ruler comprises a ruler, a target body, a mark block, an upper L-shaped ruler and a lower L-shaped ruler, wherein a first vertical straight-through groove, a second vertical straight-through groove and a transverse straight-through groove are sequentially formed in the mark block from front to back, the vertical section of the upper L-shaped ruler is inserted into the first vertical straight-through groove from top to bottom, the vertical section of the lower L-shaped ruler is inserted into the second vertical straight-through groove from bottom to top, the ruler is inserted into the transverse straight-through groove, the horizontal sections of the upper L-shaped ruler and the lower L-shaped ruler are respectively provided with the target body, and a first locking structure, a second locking structure and a third locking structure which are used for respectively controlling the upper L-shaped ruler, the lower L-shaped ruler and the ruler to slide on the mark block are respectively arranged on the mark block, and the horizontal section of the upper L-shaped ruler and the horizontal section of the lower L-shaped ruler face to the right; the straight ruler, the vertical section of the L-shaped ruler and the vertical section of the lower L-shaped ruler are provided with scales;

the L-shaped ruler, the lower L-shaped ruler and the straight ruler form an E-shaped structure;

the target body is a prism;

the lower end of the upper connecting rod is connected to the upper surface of the right end part of the horizontal section of the upper L-shaped ruler, the upper end of the lower connecting rod is connected to the lower surface of the right end part of the horizontal section of the lower L-shaped ruler, the upper end of the upper connecting rod and the lower end of the lower connecting rod are both connected with one target body, and the lengths of the upper connecting rod and the lower connecting rod are the same;

the upper connecting rod and the lower connecting rod are telescopic rods.

2. A tool for accurately measuring the axial position of a pipe according to claim 1, wherein: the upper connecting rod comprises an upper outer layer pipe and an upper inner layer pipe, the lower end of the upper outer layer pipe is connected to the upper surface of the right end part of the horizontal section of the upper L-shaped ruler, the upper inner layer pipe is sleeved in the upper outer layer pipe in an up-down sliding manner, and the upper end of the upper inner layer pipe is provided with the target body; the lower connecting rod comprises a lower outer layer pipe and a lower inner layer pipe, wherein the upper end of the lower outer layer pipe is connected with the lower surface of the right end part of the horizontal section of the lower L-shaped ruler, the lower inner layer pipe is sleeved in the lower outer layer pipe in an up-down sliding manner, one target body is arranged at the lower end of the lower inner layer pipe, and a fourth locking structure for controlling the relative movement of the upper inner layer pipe and the upper outer layer pipe and the relative movement of the lower inner layer pipe and the lower outer layer pipe is respectively arranged on the upper outer layer pipe and the lower outer layer pipe.

3. A tool for accurately measuring the axial position of a pipe according to claim 2, wherein: the fourth locking structure is a seat pipe clamp.

4. A tool for accurately measuring the axial position of a pipe according to claim 3, wherein: the inner tube comprises an upper inner tube and a lower inner tube, wherein the outer walls of the upper inner tube and the lower inner tube are respectively provided with scales, and the seat tube clamp is provided with marks matched with the scales.

5. A tool for accurately measuring the axial position of a pipe according to any one of claims 1 to 4, wherein: the standard block comprises a square block, an upper limiting block and a lower limiting block, wherein the first vertical through groove, the second vertical through groove and the transverse through groove are formed in the square block, the upper limiting block and the lower limiting block are connected to the right surface of the square block, the upper limiting block is arranged above the transverse through groove, and the lower limiting block is arranged below the transverse through groove.

6. The tool for accurately measuring the axial position of a pipe according to claim 5, wherein: the first locking structure, the second locking structure and the third locking structure comprise threaded holes and compression screws, the compression screws are in threaded connection with the threaded holes, the threaded holes of the first locking structure are formed in the groove wall of the first vertical through groove, the threaded holes of the second locking structure are formed in the groove wall of the second vertical through groove, and the threaded holes of the third locking structure are formed in the upper limiting block.

7. A tool for accurately measuring the axial position of a pipe according to any one of claims 1 to 4, wherein: the straight ruler is characterized by further comprising a spherical protrusion and a double-peak protrusion, wherein the lower surface of the right end part of the horizontal section of the upper L-shaped ruler and the upper surface of the right end part of the horizontal section of the lower L-shaped ruler are respectively provided with one spherical protrusion, and the right end face of the straight ruler is provided with the double-peak protrusion.